\begin{document}$ f(Q) $\end{document} gravity. The gravastar, which is a hypothesized substitute for a black hole, is built using the Mazur-Mottola mechanism. This approach allows us to define the gravastar as having three stages. The first one is an inner region with negative pressure; the next region is a thin shell that is made up of ultrarelativistic stiff fluid, and we studied the proper length, energy, entropy, and surface energy density for this region. Additionally, we demonstrated the possible stability of our suggested thin shell gravastar model through the graphical study of the surface redshift. The exterior Schwarzschild geometry describes the outer region of the gravastar. In the context of \begin{document}$ f(Q) $\end{document} gravity, we discovered analytical solutions for the interior of gravastars that are free of any type of singularity and the event horizon."> Gravastar in the framework of symmetric teleparallel gravity -
  • [1]

    P. O. Mazuret al., Proc. Natl. Acad. Sci101, 9545 (2004)

  • [2]

    E. Mottola and P. O. Mazur,Gravitational Condensate Stars: An Alternative to Black Holes,in American Physical Society, April Meeting (New Mexico, 2002)

  • [3]

    N. Sakaiet al., Phys. Rev. D90, 104013 (2014)

  • [4]

    T. Kubo, and N. Sakai, Phys. Rev. D93, 084051 (2016)

  • [5]

    V. Cardosoet al., Phys. Rev. Lett.116, 171101 (2016)

  • [6]

    V. Cardosoet al., Phys. Rev. Lett.117, 089902 (2016)

  • [7]

    K. Akiyamaet al., Astrophys. J. Lett.875, 1 (2019)

  • [8]

    M. Visseret al., Class. Quantum Grav.21, 1135 (2004)

  • [9]

    B.M.N. Carter, Class. Quantum Grav.22, 4551 (2005)

  • [10]

    N. Bilicet al., J. Cosmol. Astropart. Phys.02, 013 (2006)

  • [11]

    F. Lobo, Class Quantum Gravity23, 1525 (2006)

  • [12]

    F. Loboet al., Class. Quantum Grav.24, 1069 (2007)

  • [13]

    C. Cattoen,et al., Class. Quantum Grav.22, 4189 (2005)

  • [14]

    S. Ghoshet al., Phys. Lett. B767, 380 (2017)

  • [15]

    S. Ghoshet al., Results in Physics14, 102473 (2019)

  • [16]

    F. Rahamanet al., Phys Lett B707, 319 (2012)

  • [17]

    A. A. Usmaniet al., Phys. Lett. B701, 388 (2011)

  • [18]

    M. Sharif , S. Naz, Eur. Phys. J. P.137, 4 (2022)

  • [19]

    A. Daset al., Nucl. Phys. B.954, 114986 (2020)

  • [20]

    O. Sokoliuket al., Phys. Lett. B.829, 137048 (2022)

  • [21]

    M.Z. Bhattiet al., Phys. Dark Univ.29, 100561 (2020)

  • [22]

    H. A. Buchdahl, Mon. Not. Roy. Astron. Soc.150, 1 (1970)

  • [23]

    S. Mandalet al., Phys. of dark Univ.35, 100934 (2022)

  • [24]

    O. Sokoliuket al., Eur. Phys. J. Plus.137, 1077 (2022)

  • [25]

    T. Ortin,Gravity and Strings(Camb. Univ. Press, 2015)

  • [26]

    Y. Xuet al., Eur. Phys. J. C79, 708 (2019)

  • [27]

    B. Kuchowicz, Acta Phys. Pol.,33, 541 (1968)

  • [28]

    S. Perlmutteret al., Astrophys J.517, 565 (1999)

  • [29]

    A. G. Riesset al., Astron J116, 1009 (1998)

  • [30]

    S. Rayet al., Gravit Cosmol13, 142 (2007)

  • [31]

    Y. B. Zeldovich, Mon. Not. R. Astron. Soc.160, 1 (1972)

  • [32]

    G. Darmois,Memorial des sciences maths XXV(Gauthier-Villars, Paris, 1927)

  • [33]

    W. Israel, Nuovo Cimento B44, 1 (1966)

  • [34]

    K. Lanczos, Ann Phys (Berlin)379, 518 (1924)

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